The biofield treated fish peptone reported the increasedparticle sizes (d50 and d99) suggesting the aggregation ofmolecules that might occur due to the impact of biofieldenergy. The slight reduction in surface area was also revealedin the treated sample a... moreThe biofield treated fish peptone reported the increasedparticle sizes (d50 and d99) suggesting the aggregation ofmolecules that might occur due to the impact of biofieldenergy. The slight reduction in surface area was also revealedin the treated sample as compared to the control that supported the impact of biofield energy on the particle size. The XRDstudies revealed the amorphous nature of fish peptone sample;however no significant alteration was observed in thediffractogram of treated sample as compared to the control.The FT-IR spectroscopy results suggested some alteration inthe frequency of peaks of various functional groups in thetreated sample such as N-H, C-H, C=O, C-N, C-OH, etc. that may be due to the impact of biofield energy treatment on thebond length, bond angle, or the dipole moment correspondingto these groups. Moreover, the DSC analysis revealed theincrease in transition enthalpy during degradation of thetreated sample that suggested the increased need for energy bythe treated sample to undergo... less

The XRD study revealed the amorphous nature of biopeptone in both the control and treated samples. The particlesize analysis showed the increase in the particle sizes i.e. d50and d99 of the treated bio peptone as compared to the control.The surface area a... moreThe XRD study revealed the amorphous nature of biopeptone in both the control and treated samples. The particlesize analysis showed the increase in the particle sizes i.e. d50and d99 of the treated bio peptone as compared to the control.The surface area analysis showed the increase in the effectivesurface area of treated sample by 253.95% as compared to thecontrol. The DSC study showed the significant increase in themelting temperature of treated sample by 29.59% as comparedto the control. Furthermore, the TGA/DTG study revealed theslight increase in onset temperature of thermal degradationfrom 181°C (control) to 187°C in treated sample. Thisrevealed that thermal stability of the treated sample wasincreased as compared to the control. The FT-IR studyrevealed the alteration in wavenumber corresponding to N-H,C-H, C=C, C-O, and P=O vibrations after biofield energytreatment as compared to the control sample.
Based on these results, it is concluded that Mr. Trivedi’sbiofield energy treatment had the considerable imp... less

The XRD data revealed that the lattice parameter wasreduced in treated sample as compared to the control. Thedecrease in lattice parameter may lead to enhance the stabilityof δ- phase of Bi2O3 in treated sample as compared to thecontrol. Also, the increas... moreThe XRD data revealed that the lattice parameter wasreduced in treated sample as compared to the control. Thedecrease in lattice parameter may lead to enhance the stabilityof δ- phase of Bi2O3 in treated sample as compared to thecontrol. Also, the increase in crystallite size upto 25% suggestthat the ionic conductivity of treated Bi2O3 might increaseafter biofield treatment. The TGA study showed the stabilityof control and treated Bi2O3 samples upto the testedtemperature of 900°C. Besides, the ESR spectra studyrevealed that the signal width and height were significantlyincreased by 311.1 and 1188.9% respectively, as compared tothe control. Thus, overall study concludes that biofield treatment has altered the atomic and physical properties ofBi2O3. Therefore, the treated Bi2O3 could be more beneficialin solid oxide fuel cell as compared to the control. less

The biofield treatment has reduced the lattice parametersand unit cell volume of monoclinic MoO2 powder. The XRDdata showed the alteration in the lattice parameters, unit cellvolume, density and molecular weight of the treated sampleas compared to the con... moreThe biofield treatment has reduced the lattice parametersand unit cell volume of monoclinic MoO2 powder. The XRDdata showed the alteration in the lattice parameters, unit cellvolume, density and molecular weight of the treated sampleas compared to the control. The TGA study revealed that theonset temperature of thermal degradation of MoO2 wasreduced from 702.87 °C to 691.92 °C, which could be due tothe reduction of thermal stability of treated sample ascompared to the control. The rate of weight loss duringdegradation in treated sample was reduced by 41.05% ascompared to the control. Besides, FT-IR spectra exhibitedthat the absorption band corresponding to Mo=O stretchingvibration was shifted from 975 cm-1 (control) to lowerwavenumber i.e. 970 cm-1 in the treated sample, which couldbe due to reduction of strength of Mo=O bond in the treatedsample. Hence, overall data concluded that biofield energytreatment has significant impact on the physical, thermal, andstructural properties of MoO2 powder. Therefore, themod... less

In summary, the XRD diffractogram of biofield treated p-CBP exhibited the increase in intensity of the XRD peaks aswell as the average crystallite size (25.93%) as compared tothe control. The particle size analysis suggests the decrease inparticle size of... moreIn summary, the XRD diffractogram of biofield treated p-CBP exhibited the increase in intensity of the XRD peaks aswell as the average crystallite size (25.93%) as compared tothe control. The particle size analysis suggests the decrease inparticle size of fine particles (d10) and increase in particle sizeof the large particles (d90 and d99) with respect to the controlsample. The surface area analysis showed the slight increasein the surface area of the treated p-CBP with respect to thecontrol. The thermal analysis (DSC, TGA/DTG) showed aslight decrease in melting temperature and Tmax. However,the ΔH was significantly changed by 24.9% in treated sampleas compared to the control. The spectroscopic analysis (FTIRand UV-Vis) suggest that biofield energy treatment didnot affect the structural properties of treated sample ascompared to the control.
Altogether, it is concluded that the biofield energytreatment has the impact on physicochemical and thermalproperties of treated p-CBP with respect to the control. Basedon ... less

The XRD data showed that the crystallite size wassignificantly increased upto 150% as compared to thecontrol. The DSC data revealed that the thermaldecomposition energy of silver oxide was increased up to71.58% in treated sample as compared to the control... moreThe XRD data showed that the crystallite size wassignificantly increased upto 150% as compared to thecontrol. The DSC data revealed that the thermaldecomposition energy of silver oxide was increased up to71.58% in treated sample as compared to the control. TGAdata exhibited that the rate of weight loss due todecomposition of silver oxide was increased by 4.14% intreated sample as compared to the control. Hence, the biofield treatment has significantly altered the physical andthermal properties of silver oxide. Based on the alteration, itis assumed that biofield energy treatment could be applied tosilver oxide to improve its dissolution rate in topicalformulation and bioavailability. less

The XRD study showed the increase in crystallinity as well ascrystallite size (12.71%) in treated sample as compared to control. The increase in crystallinity might be due to breaking of intermolecularbonding after biofield treatment that results in more ... moreThe XRD study showed the increase in crystallinity as well ascrystallite size (12.71%) in treated sample as compared to control. The increase in crystallinity might be due to breaking of intermolecularbonding after biofield treatment that results in more symmetricalalignment of PCMC molecules. The surface area analysis also revealed49.54% increase in surface area which might be helpful to increasethe solubility of treated PCMC as compared to control sample. TheDSC analysis of treated sample showed 25.94% decrease in ΔH valueas compared to control, which probably occurred due to absence ofintermolecular bonding in biofield treated sample as reported inXRD studies. The UV-Vis spectroscopic study revealed that biofieldtreatment probably reduces the photo degradation of PCMC sample.On the other hand, the GC-MS data revealed the alteration in theisotopic ratio of δ13C, δ18O and δ37Cl and increase in abundance of δ13C,δ18O and δ37Cl in biofield treated samples as compared to control. Theincreased abundance of heavier ... less

The overall study showed the influence of biofieldtreatment on physical, thermal and spectroscopic properties of2-ClBN. XRD results showed that crystallite size wasdecreased by 4.88% in treated 2-ClBN samples as comparedto control, which might be due to f... moreThe overall study showed the influence of biofieldtreatment on physical, thermal and spectroscopic properties of2-ClBN. XRD results showed that crystallite size wasdecreased by 4.88% in treated 2-ClBN samples as comparedto control, which might be due to fracturing of grains intosubgrains caused by lattice strain produced via biofield energy.The increase in the intensity of peaks suggests the increasedcrystallinity of treated sample due to the formation ofsymmetrical and organised molecular layers caused viabiofield treatment. The reduced crystallite size and increasedcrystallinity may lead to increasing the reaction kinetics aswell as the stability of 2-ClBN, which could make it moreuseful as an intermediate compound. The surface area analysisshowed 64.53% decrease in surface area of the treated 2-ClBNsample as compared to the control that might result due toincrease in crystallinity and formation of a well-crystallisedsample after biofield treatment. DSC analysis data revealedthat latent heat of fusion as well ... less

The results showed the impact of biofield treatment on the latticeparameter, unit cell volume and molecular weight of treated sample.The crystallite size of treated BHT was reduced by 14.8% suggestingthe presence of internal strain that could be due to th... moreThe results showed the impact of biofield treatment on the latticeparameter, unit cell volume and molecular weight of treated sample.The crystallite size of treated BHT was reduced by 14.8% suggestingthe presence of internal strain that could be due to the biofield energytreatment. The DSC analysis showed 26.7% increase in ΔH, whichrevealed that biofield energy probably enhanced the potential energy intreated BHT sample as compared to the control. The TGA/DTG resultssuggested that thermal stability of treated sample was increased whichmight help to enhance its effectiveness in food materials and reduce theflammability as compared to the control. The FT-IR analysis revealedthe changes in the wavenumber of aromatic C-H bond and C=C bondthat suggest the increase in conjugation effect in the benzene ring thatprobably occurred due to biofield energy treatment. Moreover, theUV-Vis spectra also showed the shifting of peak corresponding to 247nm towards lower wavelength i.e. 223 nm. Hence, the overall studyreported the ... less

From the overall study, it was observed that the crystallite sizeof the treated sample was reduced by 30% that suggests the probableincrease in internal strain may be due to the impact of biofield energytreatment. The decreased crystallite size might help... moreFrom the overall study, it was observed that the crystallite sizeof the treated sample was reduced by 30% that suggests the probableincrease in internal strain may be due to the impact of biofield energytreatment. The decreased crystallite size might help in fastening thereaction kinetics when used as intermediate as well as the enhancedrate of degradation of 3-CNB molecules. The XRD results were alsosupported by thermal analysis data. The TGA analysis revealed anincrease in vaporization temperature and decrease in thermal stabilityof treated sample as compared to the control. It may occur due to thedecrease in crystallite size of the treated sample, and it may help in thefast degradation of 3-CNB from the environment. The DSC analysisshowed a decrease in melting temperature of the treated sample ascompared to the control that might further relate with the decreasedcrystallite size of the treated sample. It also might advantageous for3-CNB to be used as chemical intermediate as it helps in fastening thereaction ... less